BACKGROUND OF THE INVENTION
Grab bars are attached to carts, such as trash carts for example, so that the cart can be lifted and emptied either manually or by use of a powered system. The grab bar has a tubular body that is positioned outside of the cart with open ends of the grab bar extending into an interior of the cart. The open ends are covered by end caps to prevent debris from entering the tubular body.
One known end cap includes a detent that is used to secure the end cap to the grab bar. The detent also prevents the grab bar from being detached from the trash cart. The end cap also includes a sealing portion that partially seals the open end of the grab bar. The sealing portion includes a slot or opening to allow fluid or debris to be drained out of the grab bar.
SUMMARY OF THE INVENTION
The present invention provides an improved end cap for a grab bar, which is particularly suitable for attachment to a cart, such as a trash cart for example.
The example end cap disclosed herein includes a retention feature that secures the end cap to the grab bar, and which prevents the grab bar from being detached from the cart.
In one example, the end cap includes a plug portion that encloses the open end and an attachment arm that supports the retention feature. The plug portion defines an inner end face, an outer end face, and a peripheral wall surface that extends between the inner and outer end faces. The attachment arm extends outwardly from the inner end face of the plug portion to a distal end. The retention feature is supported on a looped portion that is formed at the distal end of the attachment arm. The looped portion of the attachment arm is resiliently movable to secure the end cap to the grab bar with the retention feature.
In one example, the attachment arm includes first and second arm portions that are spaced apart from each other by a gap. The looped portion connects the first and second arm portions to each other.
In another feature of the example end cap, a strengthening rib extends outwardly from the inner end face at a position within the gap.
In another feature of the example end cap, a sealing portion extends outwardly from the inner end face to facilitate sealing of the open end of the grab bar.
These and other features of the present invention can be best understood from the following specification and drawings, the following of which is a brief description.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a partial cross-sectional view of a cart with an example grab bar and end cap assembly according to the present invention.
FIG. 2 is a perspective view of an end cap from FIG. 1.
FIG. 3 is a side view of the end cap of FIG. 2.
FIG. 4 is a perspective view of the end cap in a partial insertion position within the grab bar.
FIG. 5 is a perspective view of the end cap in a fully installed position.
FIG. 6 is a top view of the end cap of FIG. 2.
FIG. 7 is an end view of the end cap of FIG. 2.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
A cart 10, such as a trash cart for example, is shown in FIG. 1. The cart 10 includes a cart body 12 that defines an interior cavity 14. The cart body 12 has an exterior surface 16 and an interior surface 18 that defines the interior cavity 14. The interior cavity 14 is open at one end to receive trash or other objects, and can be covered by a lid (not shown). The cart 10 can also be supported on wheels (not shown) such that the cart 10 can be easily moved between various locations.
A recess 20 is formed within the exterior surface 16 of the cart body 12. The recess 20 is bounded in part by first 22 and second 24 opposing walls. A grab bar 26 extends across the recess 20. The grab bar 26 is thus easily accessible such that the cart 10 can be lifted and emptied as needed.
The grab bar 26 comprises a tubular body 28 that has open ends 30. The tubular body 28 extends across the recess 20 with one of the open ends 30 extending through the first opposing wall 22 and into the interior cavity 14, and with the other of the open ends 30 extending through the second opposing wall 24 and into the interior cavity 14. The tubular body 28 includes at least one aperture 32 near each of the open ends 30. When the grab bar 26 is installed within the cart body 12, the apertures 32 are located within the interior cavity 14.
End caps 40 are used to enclose the open ends 30. The end caps 40 each include a retention feature 42 that is received within the corresponding aperture 32 to secure the end cap 40 to the grab bar 26. The retention feature 42 also prevents the grab bar 26 from becoming detached from the cart body 12. The retention features 42 extend through the apertures 32 and outwardly beyond an outer surface 44 (FIG. 5) of the tubular body 28 such that the retention features 42 can abut against the interior surface 18 at the first 22 and second 24 opposing walls to prevent the grab bar 26 from sliding out of the cart body 12.
The end caps 40 are shown in greater detail in FIGS. 2-7. The end cap 40 includes a plug portion 46 and an attachment arm 48 that supports the retention feature 42. The plug portion 46 is used to seal the open ends 30 of the grab bar 26 and includes an inner end face 50, an outer end face 52, and a peripheral wall surface 54 extending between the inner 50 and outer 52 end faces.
The attachment arm 48 extends outwardly from the inner end face 50 of the plug portion 46 to a distal end 56. The attachment arm 48 includes a looped portion 58 that is formed at the distal end 56. The looped portion 58 supports the retention feature 42 at a position near the distal end 56 such that the outermost part of the looped portion 58 extends axially beyond the retention feature 42. The attachment arm 48 is cantilevered such that the distal end 56 is free to move in a resilient manner relative to the plug portion 46. As such, the looped portion 58 of the attachment arm 48 is resiliently movable to secure the end cap 40 to the grab bar 26 with the retention feature 42.
As shown in FIG. 3, in an initial uninstalled position, the retention feature 42 extends outwardly beyond an outermost surface of the peripheral wall surface 54 of the plug portion 46. As the end cap 40 is initially inserted into the open end 30, as shown in FIG. 4, the retention feature 42 and looped portion 58 are resiliently movable in a radially inward direction toward a center of the tubular body 28 due to contact between the retention feature 42 against an inner surface of the tubular body 28. When the retention feature 42 reaches the aperture 32 in the tubular body 28, the looped portion 58 and retention feature 42 are resiliently snapped into place as they move in a radially outward direction (FIG. 5).
When the end cap 40 is in the fully installed position as shown in FIG. 5, the peripheral wall surface 54 fits against an inner surface of the tubular body 28 to seal the open ends 30. Further, the retention feature 42 is engagable with an edge of the aperture 32 formed within the tubular body 28 to prevent the end cap 40 from being removed from the grab bar 26.
As shown in FIGS. 2-3, the attachment arm 48 includes a first arm portion 60 attached to a first portion or first area 62 of the inner end face 50 and a second arm portion 64 attached to a second portion or second area 66 of the inner end face 50. The first 62 and second 66 areas are spaced apart from each other by a gap 68. The first area 62 is located near a periphery of the plug portion 46 and the second area 66 is located near a center of the plug portion 46. Thus, the attachment arm 48 is attached to, or supported by, the plug portion 46 at two discrete locations on the inner end face 50.
The looped portion 58 connects the first 60 and second 64 arm portions to each other. The configuration of the two separate arms connected by a looped portion provides sufficient resiliency for a snap-fit attachment, as well as providing a sufficiently robust connection interface to prevent the grab bar from detaching from the cart.
As best shown in FIG. 3, the retention feature 42 has a first end 70 facing the inner end face 50 of the plug portion 46 and a second end 72 facing opposite the first end 70. The retention feature 42 includes a sloped surface 74 that extends between the first 70 and second 72 ends such that the second end 72 of the retention feature 42 is further away from the looped portion 58 than the first end 70. Thus, the retention feature 42 is thicker at the second end 72 than the first end 70. In the example shown, the sloped surface 74 has a rectangular shape; however, other shapes could also be used. The sloped surface 74 facilitates a smooth insertion into the aperture 32.
The end cap 40 defines a center axis A with the first 60 and second 62 arm portions being spaced apart from each other by a radial distance R. As shown in FIG. 3, the radial distance R between the first 60 and second 62 arm portions varies in a direction that extends along the axis A. In the example shown, this variable radial distance R is provided by one of the first 60 and second 62 arms having a serpentine profile; however other profiles could also be used. Further, either or both of the arms could have a variable profile.
A sealing portion 80 extends outwardly from the inner end face 50 of the plug portion 46. The sealing portion 80 has a partial peripheral portion 82 that has an arcuate surface 84 that extends between opposing diametrical sides 86 (FIG. 4) of the sealing portion 80. The arcuate surface 84 of the partial peripheral portion 82 generally corresponds in profile to the peripheral wall surface 54 of the end cap 40. A remaining peripheral portion 88 of the sealing portion 80 is defined by a linear surface 90 that connects the opposing diametrical sides 86.
The sealing portion 80 is formed at a third portion or third area 92 of the inner end face 50 that is discretely located from attachment points of the attachment arm 48. As such, the third area 92 is separate from the first 62 and second 66 areas.
The sealing portion 80 also includes a portion 94 that has a spherical surface that curves inwardly toward the center of the end cap 40. As shown in FIG. 3, the portion 94 extends from the partial peripheral portion 82 toward the remaining peripheral portion 88. The portion 94 is formed such that the portion 94 is thicker near the center of the end cap 40 than at an edge of the end cap 40, see FIG. 6.
At least one strengthening rib 100 extends outwardly from the inner end face 50 of the plug portion 46. In the example shown, the strengthening rib 100 extends through the gap 68 between the first 60 and second 64 arm portions. In this example, the strengthening rib 100 is generally parallel to the linear surface 90 of the sealing portion 80. Additional strengthening ribs could also be used, or the strengthening rib(s) could be orientated in a different configuration than that which is shown in FIG. 2.
The sealing portion 80 provides a recessed area 102 in the outer end face 52, see FIG. 7. The recessed area 102 facilitates insertion and removal of the end caps 40 from the grab bar 26.
Although a preferred embodiment of this invention has been disclosed, a worker of ordinary skill in this art would recognize that certain modifications would come within the scope of this invention. For that reason, the following claims should be studied to determine the true scope and content of this invention.